Knowledge structure and emerging trends of cognitive impairment induced by sleep deprivation: A bibliometric analysis based on CiteSpace and VOSviewer from 2000 to 2022

This paper implements a bibliometric approach to investigate the research hotspots and future research directions in the relevant field literature. It also offers research ideas and methods for preventing and treating cognitive impairment induced by sleep deprivation in the clinical setting. The evolution of various clusters in the field is summarized through Citespace’s projection function for keywords in the literature. CiteSpace and Vosviewer are utilized to analyze and visualize the attributes of the articles, including number of publications, citation frequency, country/region, institution, journal, authors, keywords, and references, from the 2280 publications obtained. A total of 2280 publications were collected, with the number of papers and citations in the field continuously increasing year by year. The most influential country in this field is the United States, and the University of Washington is the most influential institution. The most authoritative journal in the field is identified as SLEEP. Sleep deprivation, prefrontal cortex, and performance are the current topics of interest. The article with the strongest citation burst, lasting from 2015 to 2018, is “Sleep Drives Metabolite Clearance from the Adult Brain.” The most influential article and co-cited reference, “Neurocognitive Consequences of Sleep Deprivation,” highlights that sleep deprivation from various causes may lead to cognitive impairment. Future research should investigate all forms of cognitive impairment resulting from sleep deprivation. The findings of this study will assist researchers in improving their knowledge structure, identifying research hotspots, and revealing future directions in the field.


Introduction
Cognitive dysfunction refers to abnormalities in neurological functions related to the intake, storage, reorganization, and processing of information, resulting from various causes such as impaired judgment, attention, memory, reduced reasoning, executive function, and communication difficulties. [1]With global aging, changes in lifestyle, and diet, the prevalence of cognitive dysfunction is gradually increasing, [2][3][4] which seriously affects the quality of life of patients [5] and increases the burden of care [6] also the psychosocial distress. [7]Studies have indicated that various diseases, such as Parkinson's syndrome, Alzheimer's disease, stroke, and diabetes, can cause cognitive dysfunction.Furthermore, age, hypertension, living quality, and oxidative stress are all risk factors for cognitive dysfunction. [8][25] And it has been shown that chronic sleep deprivation can lead to disruption of the melatonin system in vivo [26] and several studies have shown that melatonin can alleviate the symptoms of sleep deprivation-induced cognitive dysfunction. [16]Some patients with cognitive impairment may have suicidal behaviors, and we need to recognize it early and take corresponding preventive measures, [27] One effective approach is to reduce to some extent the possible exposure of patients to environments that may trigger disease. [28]ibliometrics has been widely used in many life sciences such as medicine, biology, public health and so on. [29,30]Bibliometrics as a new integration technology provides new ideas for exploring the research status, content and hotspots in various fields. [31]y analyzing the potential information of the past, we can gain better insight into the future. [32,33]This study uses bibliometrics, with the help of Excel and Citespace software, to visualize and analyze the volume of articles, authors, institutions, and keywords of sleep deprivation-related cognitive dysfunction-related research from 2000 to 2022 at home and abroad, so that our scholars can In order to provide a timely and accurate tracking of the current situation of domestic research and hot trends, and to provide a reference basis for subsequent research directions.

Raw data acquisition
The Web of Science Core Collection database was used as the original literature data source, with sleep deprivation and cognitive dysfunction as search terms.Due to the number of cited papers and other parameters that may vary in search time, the search time for this study was specified as January 25 The total number of relevant literature of WOS was 2334, and to ensure the accuracy and validity of the data, the relevant papers were searched for a limited period of time from January 1, 2000 to December 31, 2022, and the types of literature research included research papers, review papers and other types of papers.After screening, 2280 original literature data were obtained, and all original literature data results were downloaded and saved in the plain text format of "full record with cited references."

Data analysis and related parameter settings
The data obtained from WOS were imported into Excel, Citespace and VOSviewer software to analyze and statistically describe the number of articles, the main authors, research institutions and their citations and collaborations, major published journals and their citations in the field of sleep deprivation-related cognitive dysfunction research in recent years, in order to obtain the distribution structure, volume changes and The trend of development.
In Citespace 6.1.R6 software, the time selection was set to 2000 to 2022, the time slice was selected as 1 year, and the rest of the options were kept as default settings, the number of citations or occurrences per year was 10% of the literature, and the maximum number of literature per time slice (time slicing) was 100.In the pruning algorithm, Pathfinder, Pruning sliced networks, Pruning the merged network are selected at the same time, and if there are software operation errors, etc., the default settings are kept in the pruning algorithm without Pathfinder, Pruning sliced networks, and Pruning the merged network are not checked in the pruning algorithm.www.md-journal.com

Analysis of visualization results
In the node type, country, institution, journal, author, keyword and highly cited literature are analyzed separately.the graph generated by Citespace consists of nodes and the corresponding lines.The size of a node corresponds to the frequency of that node in the corresponding analysis module, the color of a node corresponds to the research time of that node, and the links between nodes indicate the co-occurrence or co-citation between nodes.In keyword detection, log-likelihood rate is usually used as the main method of keyword clustering analysis, and keyword class clusters with high confidence are clustered at the clustering module value (Modularity Q) and mean silhouette value (Mean Silhouette) based on co-occurrence analysis.Further to the keyword clustering analysis, the keywords were visualized with a timeline spectrum analysis, and cognitive dysfunction due to cognitive dysfunction was analyzed by timeline spectrum.
In burst word detection, γ(0,1) is set to 0.5 and the minimum duration is set to 1.If less than 20 burst words are retrieved, the value of γ is decreased by 0.1 each time until more than 20 words are retrieved.The thickness of the link represents the tightness of the connection between 2 nodes, and the color of the link represents the duration of the connection between the nodes.The node with the outermost circle in purple usually means that its centrality is greater than 0.1, indicating that the node has significant influence in the module.The data source in VOSviewer is bibliographic data for the calculation of total citations and total connection strength, and the threshold is usually set to 5 articles in the calculation, and if no valid class clusters are formed, the threshold is gradually reduced by 1 until a more obvious clustering situation occurs.In the graph generated by VOSviewer only keep the nodes that are connected to each other, the layout is set to attract (Attraction) 2, repulsion (Repulsion) -1, and the rest of the settings remain unchanged by default settings.

Analysis of the number of articles issued
Of the 2280 papers queried, 1750 (76.75%) were original research papers and 471 (20.66%) were review papers.According to the data analysis of the retrieved primary literature, the number and trend of papers on sleep deprivation-related cognitive dysfunction, as shown in Figure 1.The number of papers in the related field has gradually increased since 2000.the number in 2022 was 13.1 times higher than that in 2000.The number peaked in 2022 with 236 papers.As shown by the solid line of the trend, the number of papers fluctuates slightly from 2000 to 2022, but generally maintains an upward trend year by year.To further predict the publication trend of sleep deprivation-induced cognitive dysfunction, a binomial function of the annual publication trend in this field from 2000 to 2022 was screened based on the correlation coefficient R 2 . [34]After analysis, the binomial function y = 0.4434x 2 −0.488x + 21.623 (R 2 = 0.9801, y is the annual publication, x is the year), the inflection point has not yet appeared, which indicates that the papers in this field have grown rapidly in the past few years, and the global research on this field is still in the boom period, and the number of publications in the related field will maintain the continued upward trend in the subsequent years as the research continues to deepen.The number of citations in this field is also increasing year by year.With the rise in the heat of research related to sleep deprivation-induced cognitive dysfunction, the annual number of citations in this field is exploding from 2018 to 2021, and the slight decrease in the number of citations in the literature in 2022 may be related to the short dissemination time of the literature.

Country and regional analysis
The analysis of the obtained raw literature data into the visualization software shows that research in this field is mainly published by 73 countries or regions.The top 10 countries and regions in terms of number of publications are listed in Table 1, which also includes Centrality, Citation and Total link strength.The United States of America (USA) is the most published country with 922 publications in this field, accounting for 40.44% of the total number of publications in this field (n = 922, 40.44%), followed by China (The People's Republic of China, PEOPLES R CHINA) (n = 189, 8.29%) and the United Kingdom (ENGLAND) (n = 169, 7.41%).The United States published more than 40% of the relevant literature published in the field, and it is clear that the United States published the largest number of papers with the highest number of citations and the strongest total link strength, indicating the strong influence of U.S. research in the field.
The collaboration between different countries and regions is shown in Figure 2, where there are 73 nodes and 282 links.The size of the node represents the number of papers published in that country, and the red circle outside the node represents

Analysis of research organization
The analysis of the obtained raw literature data imported into the visualization software reveals that a total of 566 different organizations mainly published relevant literature in this field of research.Table 2 shows the top 10 research organizations with the highest number of publications, along with centrality, citations, and total link strength.The University of Pennsylvania (Univ Penn) had the highest number of publications with a total of 71 (3.11%), followed by Harvard University, Harvard (n = 54, 2.37%) and Stanford University, Stanford (n = 39, 1.71%).Among the top 10 research organizations in terms of number of publications, the University of Pennsylvania (n = 7987) and the University of California, San Diego (UCSD) (n = 6677) had more than 5000 citations.The strongest total link was to the University of Pennsylvania at 7097.Johns Hopkins University published no more than 30 articles, but the institution had more than 3200 total citations, indicating that the institution is in the developmental stage of research but is making a significant impact in the field.All of the top 10 institutions in terms of number of publications are from the United States, which is consistent with the results of the analysis of countries and regions above.
The map of inter-institutional collaboration is shown in Figure 3, which includes a total of 566 nodes and 780 internode links.The size of the nodes represents the number of papers published by the institution, the red circles outside the nodes represent the number of papers published by the institution in the field in recent years, and the purple circles outside the nodes represent the institution with high centrality, indicating that the institution is in an important position in the collaboration map.Among them, the University of Pennsylvania has the highest centrality (n = 0.16), indicating that the institution is in a more important position in institutional collaboration and cooperates more closely with other institutions in the field.

Analysis of related journals
The analysis of the obtained raw literature data imported into the visualization software revealed that the main research in this field was published by a total of 714 journals on sleep deprivation-related cognitive dysfunction from 2000 to 2022.By analyzing the journals related to this field, we can identify the main influential journals in the specific research area.Table 3  A co-cited journal is one in which two or more publications in the field of sleep deprivation-related cognitive dysfunction cite papers in the same journal.Table 4 shows the top 10 co-cited journals in the field.The top 3 co-cited journals were SLEEP (n = 1565), J SLEEP RES (n = 1102), and SLEEP MED REV (n = 894).The journal with the highest impact factor was NATURE (IF = 69.504).Analysis of the centrality of the co-cited journals showed that the centrality of all types of journals was less than 0.1, indicating that citation in the field is relatively average and no journals with significant centrality have been formed.

Author analysis
The analysis of the obtained raw literature data imported into the visualization software shows that the research in this field is mainly conducted by a total of 691 authors involved in 1503 relevant publications from 2000 to 2022.Table 5 shows the top 10 authors in terms of number of publications (in order of centrality if the number of publications is the same), their latest affiliation, number of author publications, centrality and H-index.Van dongen, Hans PA from Washington State University, Spokane, USA, had the highest number of publications (n = 22, 0.96%), followed by Balkin, Thomas Jf from the US Army (n = 14, 0.61%) and Balkin, Thomas Jf from the Dinges, David F (n = 13, 0.57%) from the University of Pennsylvania School of Medicine of Pennsylvania.The collaboration between these authors is shown in Figure 4A, including a total of 748 nodes and 947 inter-node links.The size of the nodes of different authors represents the number of papers published by that author, the red circles outside the nodes represent the amount of publications in the field by that author in recent years, the purple circles outside the nodes represent the high centrality of that author, and the nodes with purple circles indicate that the author is in an important position in the collaboration among authors.Among all the authors, none of the nodes have a degree greater than 0.1, indicating that there is no leader in the field yet.Two authors' articles are cited simultaneously in 1 literature, indicating a co-citation relationship between these 2 authors. [35]Figure 4B shows the graph of co-cited authors in the relevant literature.After cluster analysis by VOSviewer, 5 clusters were identified with Van dongen, hpa (red), Lim, asp (green), Buysse,dj (blue), Alzoubi, Kh (yellow) and gozal,d (purple) as the core authors.

Keyword analysis
Keywords are a high level summary and condensation of the content of the literature, and their frequency of occurrence can reflect the research direction and hotspot of the research area. [36]eywords with only case differences, hyphen differences, abbreviations or similar intent will be combined, e.g." Sleep Deprivation," "Insufficiencies, Sleep," " Sleep Fragmentation" will be combined into " Sleep Deprivation."By understanding the keywords shown in the main studies, we can explore the hot spots of current research and trends of future research.
After screening and merging, a total of 646 relevant keywords were extracted, with 646 nodes and 2829 inter-node links in the keyword co-occurrence (Fig. 5A).Three keywords appeared more than 200 times: sleep deprivation " Sleep Deprivation" (n = 650), deprivation "Deprivation" (n = 403), performance "Performance" (n = 325); 13  Cluster analysis identifies similar parts of keywords and combines them into a cluster that indicates the current state of research in the field.Keyword timeline spectrum analysis can analyze the timing and continuation of keyword appearances.Identifying keywords that change in frequency within a certain period of time can be used to reflect the hotspot phase of a research field, and combined with the research zone map of keywords, the evolution of hotspots in the research process of the field can be summarized, which has a certain guiding significance for the future research direction of the field.In Figure 5B, the modularity Q = 0.326 > 0.3 and the mean silhouette S value = 0.7062 > 0.7, indicating that the structure of this clustering association is significant and effective.In the keyword clustering plot (Fig. 5B) and the timeline profile (Fig. 5C), a total of 6 clusters were shown, its main themes are shown in Table 6, namely obstructive sleep apnea, sleep deprivation, female rats, major depression, bipolar disorder, and circadian rhythm aging.From the keyword clustering analysis and timeline spectrum analysis, it can be found that the clusters were studied from 2000 to 2022, and the research in this field was more concentrated before 2010, with larger keyword nodes shown in the figure; after 2010, it was more deeply studied within each branch, with

Analysis of highly cited articles
Analysis of the retrieved publications and co-cited references allowed the identification of current research hotspots in the field.Table 7  Figure 6 lists the top 50 references with the strongest citation bursts from 2000 to 2022; the length of the blue line segment is the time frame of the study, and the part of the red line segment is the time period of the citation burst.The time period of the citation explosion is usually about 5 years, which may be related to the authors' writing habits.Most authors cited articles within 5 years as references.The article with the strongest citation burst was LULU XIE's study in 2014 with an intensity of 25.77 and a citation burst period of 2015 to 2018. [37]Other references with citation burst intensity greater than 17 were published by Van Dongen HPA, Van Dongen HPA, Durmer JS, Killgore WDS, and Krause AJ.Most references focus on sleep deprivation-induced cognitive impairment, which usually manifests as nonspecific symptoms such as increased alertness and abnormal waking time, and is tolerated more differently in different individuals due to the specificity of the prefrontal cortex, and methods to eliminate this difference are still being explored.Recent highly cited references are Van Dongen 2003, BUYSSE, DJ 1989, JOHNS, MW 1991 and the Durmer, JS 2005 study.These studies mainly suggest that cognitive impairment due to sleep deprivation may be related to the quality and duration of sleep, the onset of sleep-related disorders, and the cumulative effect of sleep deprivation on cognitive impairment, so we need to explore better ways to gain insight into the causes of sleep deprivation in order to mitigate the development of severe cognitive impairment.

Discussion
As a field that examines research trends, direction, and guides future research, bibliometrics has significant value for scholars and researchers.In recent times, sleep deprivation-induced cognitive dysfunction has emerged as a prominent research focal point.The objective of this study is to present an overview of past and current research hotspots in this area and predict future research trends and directions.Over the 20-year period analyzed, the number of publications in this research area has been steadily increasing with its peak expected in 2022.Additionally, the number of citations to these publications has been registering growth since 2000.An analysis of the publication growth curve suggests that the saturation point is yet to be achieved, indicating that the number of publications concerning this field will continue to rise.The majority of articles published in this area came from Western countries, with the United States leading the pack in both the number of articles published and cited, hinting at its strong influence in this area.China follows closely with the second-highest number of publications.The UK also has a strong presence in the field, contributing 7.41% of articles.
Among the 714 authors who published articles on sleep deprivation-induced cognitive impairment, the top 10 journals published 436 papers, representing 19.12% of all articles on the subject.SLEEP MEDICINE REVIEW published the most articles with 138 publications, representing 6.05%.It is evident that specialized journals in urology and oncology are more inclined towards publishing articles in this field.Interestingly, SLEEP MEDICINE REVIEW had the most impact factor (IF), indicating that sleep deprivation significantly impacts cognitive impairment.The top 10 co-cited journals are all listed in JCR Q1 and Q2 and include NATURE, SCIENCE, and P NATL ACAD SCI USA, with recent IFs of 69.504, 63.714, and 12.779, respectively.This highlights the relevance of high-impact factor journals when referencing sleep deprivation-induced cognitive impairment.
The analysis of authors and co-cited authors assists in identifying specialists with noteworthy influence in sleep deprivation-induced cognitive impairment research.Based on our analysis, Van Dongen, Hans P.A. was the most prolific author with 22 publications and the numerous collaborations.This study identified 5 clusters of co-cited authors with authors in the same cluster sharing collaborative relationships or similar research interests.These authors' research primarily focused on neuroscience, clinical neurology, psychiatry, neuropharmacology, and the psychological aspects of sleep-related cognitive disorders.

Implications
The focus of research related to sleep deprivation-induced cognitive impairment can be explored from the co-occurring keywords.The 3 most common co-occurring keywords identified in our analysis include sleep deprivation, prefrontal cortex, and performance.Long-term or short-term sleep deprivation similarly may affect the normal physiological function of the prefrontal cortex, disrupting normal circadian rhythms and thus affecting normal daytime performance.The prefrontal cortex is a key region of the human brain related to higher cognitive functions, which plays a role in attention, emotion regulation, learning memory processes and thought reasoning [12,38] and is particularly sensitive to sleep deprivation. [39][42][43] Current research suggests that sleep deprivation adversely affects general lower-order cognitive functions, [44,45] but the effects on higher-level cognitive abilities -executive functions -and the underlying mechanisms behind them are unclear. [46,47]Executive functions primarily include working memory, inhibitory control, and cognitive flexibility. [48]here is substantial empirical evidence that sleep deprivation affects the neural basis of executive functioning, suggesting that the prefrontal cortex plays a central role in the performance of executive functions.For example, studies have shown a significant decrease in inhibition efficiency after sleep deprivation, with decreased activation in ventral prefrontal cortex, anterior prefrontal cortex, and right anterior insula. [49]In a study using near-infrared spectroscopy, it was found that those who did not receive sufficient sleep under acute sleep deprivation conditions lacked bilateral frontal activation during working   memory processing and that the level of frontal activation was significantly reduced in sleep-deprived individuals. [50]In addition, Nakashima et al [51] used fMRI techniques to investigate the neural basis of the effects of sleep deprivation on cognitive flexibility and found that complete sleep deprivation activated regions of the frontal and parietal lobes as well as the cingulate gyrus.For patients who may produce cognitive impairment, better social support may relieve patients' symptoms to a certain extent and slow down the progress of the disease. [52] more comfortable environment may reduce the discomfort of patients and promote the recovery of the disease.However, so far, there is a lack of a systematic overview of the hotspots and future research aspects of sleep deprivation-induced cognitive impairment, and further research in this area is needed.Relevant health professionals should also take corresponding preventive measures to improve the awareness of sleep deprivation in cognitive impairment, http://links.lww.com/MD/J878.

Limitations
At the time of research in this field, the field has gradually formed a certain development direction, and the guiding effect of this study on this field has been weakened to a certain extent.
The same research should be carried out earlier to guide the research direction at the early stage of development. [53]Our analysis of this field is still at the theoretical level to a certain extent, and we need more research that can be translated into visual results. [54]For the analysis of literature, this paper studies this field from a macro perspective, and subsequent research can be carried out according to the specific research situation in different regions. [55]Due to the differences in policies and actual conditions in different countries and regions, different research directions in different localities may show different developments in line with local conditions.When conducting research, local policies and actual conditions should also be considered. [56]Keyword co-occurrence analysis revealed that Sleep Deprivation, Prefrontal Cortex, and Performance are the most significant keywords in the field, suggesting that sleep deprivation, whether short-term or long-term, can profoundly affect prefrontal cortical function and disrupt circadian rhythm, impacting daytime performance.As a potential therapeutic approach, improving sleep quality could help reduce cognitive impairment.
According to the conclusions found in the literature, early clinical intervention to improve sleep quality could successfully reduce the occurrence of subsequent cognitive impairment, although further randomized controlled trials are necessary to validate these results.In addition, personalized intervention measures should be tailored to individual patients according to their specific environments.
The prevalence of cognitive impairment during the epidemic era can be influenced by local prevention and control measures.While the post-pandemic era may still affect cognitive function, it is expected to improve over time.

Figure 1 .
Figure 1.Annual changes in the number of literatures related to sleep deprivation related cognitive dysfunction in Web of Science Core Collection database between 2000 and 2022.
lists the 10 journals with the highest number of published papers in 2022 and their impact factors.The top 3 journals are SLEEP (n = 138, IF = 6.313),JOURNAL OF SLEEP RESEARCH (n = 60, 5.296), and SLEEP MEDICINE (n = 48) (IF = 4.842).With the current impact factor assessment, SLEEP MEDICINE REVIEWS (IF = 11.401),SLEEP (IF = 6.313) and JOURNAL OF SLEEP RESEARCH (IF = 5.296) are the journals with high authority in this field.

Figure 2 .
Figure 2. National visualization analysis atlas of literatures related to sleep deprivation related cognitive dysfunction between 2000 and 2022 in Web of Science Core Collection database.

Figure 4 .
Figure 4. (A) Authors and collaborations in the field of cognitive impairment induced by sleep deprivation.(B) Co-cited authors in the field of cognitive impairment induced by sleep deprivation.

Figure 5 .
Figure 5. (A) Keywords collaborations in the field of cognitive impairment induced by sleep deprivation.(B) Keywords clustering analysis in the field of cognitive impairment induced by sleep deprivation.(C) Keywords time line spectrogram analysis in the field of cognitive impairment induced by sleep deprivation.(D) Top 25 keywords with the strongest citation bursts.
This study is a bibliometric analysis of the impact of sleep deprivation on cognitive function from 2000 to 2022.The study utilizes literature collected from the Web of Science Core Collection database to gain insight into research trends and directions in the field.The number of publications has steadily increased over the 23-year study period, and based on publication trends, it is expected to continue to rise in the future.The United States is a dominant force in sleep deprivation research, with influential scholars and institutions leading the field.

Table 1
Ranking of national publications of sleep deprivation related cognitive dysfunction in Web of Science Core Collection database between 2000 and 2022.

Table 2
Ranking of research organization publications of sleep deprivation related cognitive dysfunction inWeb of Science Core Collection database between 2000 and 2022.Medicine smaller keyword nodes shown in the figure, and continued until now.Burst word detection is the digitization of the frequency of a specific topic during a research period, which can be used to study past research hotspots and predict potential future research directions in the field.The top 25 keywords with the strongest citation bursts in keyword citation burst detection are shown in Figure 5D.Alertness and apnea syndrome were the keywords with the longest bursts, with burst intensities of 11.6 and 7.03, respectively, from 2000 to 2011. the top 2 keywords with the strongest bursts were alertness and prefrontal The top 2 keywords with the highest burst intensity were Alertness and Prefrontal cortex, with strengths of 11.6 and 8.71, respectively, and bursts from 2000 to 2011 and 2005 to 2012.Other keywords with recent citation bursts include interference, memory impairment, quality, validation, and functional connectivity.
Figure 3. Research organization analysis atlas of literatures related to sleep deprivation related cognitive dysfunction between 2000 and 2022 in Web of Science Core Collection database Science Core Collection database.Yu et al. • Medicine (2023) 102:40 lists the 10 most cited papers published in the field between 2000 and 2022, with citation counts ranging from 636 to 1137.Table 8 lists the 10 most co-cited papers in the field between 1989 and 2022, with citations ranging from 135 to 209.The 4 papers cited and co-cited in both tables are the same and were published by Durmer, JS 2005, Thomas, M 2000, Van Dongen, HPA 2004 and Killgore, WDS 2010.They are from Georgia State University (GSU), the University of Texas at Austin (UT-Austin), Washington state university, Spokane, USA (Washington State University) and the University of Arizona (UA).All authors are from the United States.The conclusions are similar to the analysis between countries, which implies that the USA has a greater influence in this research area.The most cited paper was "Neurocognitive consequences of sleep deprivation," published in 2005 by Durmer, JS, from Georgia State University in USA.

Table 3
Ranking of journal publications of sleep deprivation related cognitive dysfunction in Web of Science Core Collection database between 2000 and 2022.

Table 5
Ranking of authors publications of sleep deprivation related cognitive dysfunction in Web of Science Core Collection database between 2000 and 2022.

Table 6
Co-occurrence clustering information of key words related to sleep deprivation related cognitive dysfunction from 2000 to 2022 in Web of Science Core Collection database between 2000 and 2022.

Table 7
Ranking of citation publications of sleep deprivation related cognitive dysfunction in Web of Science Core Collection database between 2000 and 2022.

Table 8
Ranking of Co-citation publications of sleep deprivation related cognitive dysfunction in Web of Science Core Collection database between 2000 and 2022.The cumulative cost of additional wakefulness: dose-response effects on neurobehavioral functions and sleep physiology from chronic sleep restriction and total sleep deprivation Yu et al. • Medicine (2023) 102:40 Medicine